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MITSUBISHI QS034B-E
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Analog channel: 16 channels.
Input / output (resolution): 0 ~ 4000.
Conversion speed: 100ms/16 channel.
Analog module installation.
Power supply: AC170V ~ 264V.
According to the control requirements of the system, using the appropriate design method to design MITSUBISHI PLC program.
Procedures to meet the requirements of system control as the main line,
Write one by one to achieve the control function or the sub task of the program,
Gradually improve the functions specified by the system QS034B-E
MITSUBISHI PLC detection, fault diagnosis and display and other procedures.
These procedures are relatively independent, generally in the basic completion of the program design and then add QS034B-E.
Hardware simulation method is to use a number of hardware equipment to simulate the generation of the signal,
The signals are connected to the input end of the PLC system in a hard wired way, and the timeliness is strong .
Software simulation method is in the MITSUBISHI PLC in the preparation of a set of simulation program,
The simulation provides the field signal, which is simple and easy to operate, but it is not easy to guarantee the timeliness QS034B-E.
Simulation of the process of debugging, debugging method can be used to segment, and the monitoring function of programmer. "Differential driver output.
Axis of control: 4.
Control unit: mm, inch, degree, pulse.
Location data: 600 data / axis.
Module backup function: the positioning data, module start data saved to the flash ROM (no battery).
Boot time (operation cycle 0.444ms, 1 axes): 0.3ms.
Maximum output pulse: 5000000 pulse/s.
The maximum distance between servo system: 10m.
External wiring connection: 40 pin connector two.
Linear interpolation: 2 axes.
Arc interpolation: 2 axes.
Spiral line interpolation
For large hole drilling, X, Y, Z axis should be considered.
Need to be through the milling process, along the XY axis of the circular arc shaped drill open the required specifications of the hole.
And the deviation of the cutting position is controlled at the minimum, and the shaft is carefully processed along the Z axis.
Without special NC control system for such control, X, Y, Z axis between the interpolation control is easy to produce error,
High precision positioning control.
The use of the positioning module of the spiral line interpolation function, that is, to achieve low cost control of high difficulty.
Easy positioning control
The positioning module uses the position control and speed control, which is set by the engineering software.
In the position control and speed control is also equipped with an increase in the "conditional judgment" after the implementation of the specified positioning data and other advanced positioning control functions.
For example, in the automobile door sealing process, the need to carry out high precision positioning control,
In order to applying sealant on the sealing part of the door.
Therefore, it is necessary to track the precise trajectory through the straight line and the arc, and implement the high precision interpolation control.
Multiple start mode
In addition to the conventional positioning module startup, there are high-speed start, multi axis at the same time, such as the start of a variety of ways to start.
High speed start by analyzing thee location data to be executted in advance,
High speed startup mode without data analysis time QS034B-E.
Multi axis simultaneous start up mode for starting output pulse at the same time that the object shaft is started simultaneously with the start of the shaft.
In addition, the modulle can be started to run according to a plurality of positioning data groups in turn at startup QS034B-E.
Can be used for repetitive control of the same locus. "
QS034B-E Operation manual / Instructions / Catalog download link: /searchDownload.html?Search=QS034B-E&select=5
Input / output (resolution): 0 ~ 4000.
Conversion speed: 100ms/16 channel.
Analog module installation.
Power supply: AC170V ~ 264V.
According to the control requirements of the system, using the appropriate design method to design MITSUBISHI PLC program.
Procedures to meet the requirements of system control as the main line,
Write one by one to achieve the control function or the sub task of the program,
Gradually improve the functions specified by the system QS034B-E
MITSUBISHI PLC detection, fault diagnosis and display and other procedures.
These procedures are relatively independent, generally in the basic completion of the program design and then add QS034B-E.
Hardware simulation method is to use a number of hardware equipment to simulate the generation of the signal,
The signals are connected to the input end of the PLC system in a hard wired way, and the timeliness is strong .
Software simulation method is in the MITSUBISHI PLC in the preparation of a set of simulation program,
The simulation provides the field signal, which is simple and easy to operate, but it is not easy to guarantee the timeliness QS034B-E.
Simulation of the process of debugging, debugging method can be used to segment, and the monitoring function of programmer. "Differential driver output.
Axis of control: 4.
Control unit: mm, inch, degree, pulse.
Location data: 600 data / axis.
Module backup function: the positioning data, module start data saved to the flash ROM (no battery).
Boot time (operation cycle 0.444ms, 1 axes): 0.3ms.
Maximum output pulse: 5000000 pulse/s.
The maximum distance between servo system: 10m.
External wiring connection: 40 pin connector two.
Linear interpolation: 2 axes.
Arc interpolation: 2 axes.
Spiral line interpolation
For large hole drilling, X, Y, Z axis should be considered.
Need to be through the milling process, along the XY axis of the circular arc shaped drill open the required specifications of the hole.
And the deviation of the cutting position is controlled at the minimum, and the shaft is carefully processed along the Z axis.
Without special NC control system for such control, X, Y, Z axis between the interpolation control is easy to produce error,
High precision positioning control.
The use of the positioning module of the spiral line interpolation function, that is, to achieve low cost control of high difficulty.
Easy positioning control
The positioning module uses the position control and speed control, which is set by the engineering software.
In the position control and speed control is also equipped with an increase in the "conditional judgment" after the implementation of the specified positioning data and other advanced positioning control functions.
For example, in the automobile door sealing process, the need to carry out high precision positioning control,
In order to applying sealant on the sealing part of the door.
Therefore, it is necessary to track the precise trajectory through the straight line and the arc, and implement the high precision interpolation control.
Multiple start mode
In addition to the conventional positioning module startup, there are high-speed start, multi axis at the same time, such as the start of a variety of ways to start.
High speed start by analyzing thee location data to be executted in advance,
High speed startup mode without data analysis time QS034B-E.
Multi axis simultaneous start up mode for starting output pulse at the same time that the object shaft is started simultaneously with the start of the shaft.
In addition, the modulle can be started to run according to a plurality of positioning data groups in turn at startup QS034B-E.
Can be used for repetitive control of the same locus. "
QS034B-E Operation manual / Instructions / Catalog download link: /searchDownload.html?Search=QS034B-E&select=5
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